Fluorescent Sensing of Ciprofloxacin and Chloramphenicol in Milk Samples via Inner Filter Effect and Photoinduced Electron Transfer Based on Nanosized Rod-Shaped Eu-MOF

Rapid, facile, and accurate detection of antibiotic residues is vital for practical applications. Herein, we designed a sensitive, visual, and rapid analytical method for sensitive detection of ciprofloxacin and chloramphenicol based on a nanosized rod-shaped Europium metal organic framework (Eu-MOF...

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Published in	Foods Vol. 11; no. 19; p. 3138
Main Authors	Yue, Xiaoyue, Wu, Chaoyun, Zhou, Zijun, Fu, Long, Bai, Yanhong
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.10.2022 MDPI
Subjects	Acids Animal-based foods antibiotic detection Antibiotics Breeding of animals Chemical properties Chloramphenicol Chloromycetin Chromatography Ciprofloxacin Detection limits Electron transfer Europium Fluorescence fluorescent sensing Food science Identification and classification inner filter effect Ligands metal organic framework Metal-organic frameworks Morphology photoinduced electron transfer Quantum dots Residues Room temperature Safety regulations Scientific imaging Sensors China Beijing China United States > US
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Abstract	Rapid, facile, and accurate detection of antibiotic residues is vital for practical applications. Herein, we designed a sensitive, visual, and rapid analytical method for sensitive detection of ciprofloxacin and chloramphenicol based on a nanosized rod-shaped Europium metal organic framework (Eu-MOF). The fluorescent Eu-MOF was firstly synthesized by a simple synthetic route at room temperature, which displays a red emission. The mechanisms of detecting ciprofloxacin and chloramphenicol were confirmed to be the inner filter effect (IFE) and photoinduced electron transfer (PET). Under the optimized experimental conditions, the detection limits of the developed method for ciprofloxacin and chloramphenicol detection were 0.0136 and 3.16 μM, respectively. Moreover, the sensor was effectively applied for quantitative determination of ciprofloxacin and chloramphenicol milk samples with satisfactory recoveries of 94.5–102% and 97–110%, respectively. This work developed a new method for rapid detection of ciprofloxacin and chloramphenicol residues. In addition, the established method has potential practical application value for on-site safety regulation on antibiotic residues in animal-derived food.
AbstractList	Rapid, facile, and accurate detection of antibiotic residues is vital for practical applications. Herein, we designed a sensitive, visual, and rapid analytical method for sensitive detection of ciprofloxacin and chloramphenicol based on a nanosized rod-shaped Europium metal organic framework (Eu-MOF). The fluorescent Eu-MOF was firstly synthesized by a simple synthetic route at room temperature, which displays a red emission. The mechanisms of detecting ciprofloxacin and chloramphenicol were confirmed to be the inner filter effect (IFE) and photoinduced electron transfer (PET). Under the optimized experimental conditions, the detection limits of the developed method for ciprofloxacin and chloramphenicol detection were 0.0136 and 3.16 μM, respectively. Moreover, the sensor was effectively applied for quantitative determination of ciprofloxacin and chloramphenicol milk samples with satisfactory recoveries of 94.5–102% and 97–110%, respectively. This work developed a new method for rapid detection of ciprofloxacin and chloramphenicol residues. In addition, the established method has potential practical application value for on-site safety regulation on antibiotic residues in animal-derived food. Rapid, facile, and accurate detection of antibiotic residues is vital for practical applications. Herein, we designed a sensitive, visual, and rapid analytical method for sensitive detection of ciprofloxacin and chloramphenicol based on a nanosized rod-shaped Europium metal organic framework (Eu-MOF). The fluorescent Eu-MOF was firstly synthesized by a simple synthetic route at room temperature, which displays a red emission. The mechanisms of detecting ciprofloxacin and chloramphenicol were confirmed to be the inner filter effect (IFE) and photoinduced electron transfer (PET). Under the optimized experimental conditions, the detection limits of the developed method for ciprofloxacin and chloramphenicol detection were 0.0136 and 3.16 μM, respectively. Moreover, the sensor was effectively applied for quantitative determination of ciprofloxacin and chloramphenicol milk samples with satisfactory recoveries of 94.5-102% and 97-110%, respectively. This work developed a new method for rapid detection of ciprofloxacin and chloramphenicol residues. In addition, the established method has potential practical application value for on-site safety regulation on antibiotic residues in animal-derived food.Rapid, facile, and accurate detection of antibiotic residues is vital for practical applications. Herein, we designed a sensitive, visual, and rapid analytical method for sensitive detection of ciprofloxacin and chloramphenicol based on a nanosized rod-shaped Europium metal organic framework (Eu-MOF). The fluorescent Eu-MOF was firstly synthesized by a simple synthetic route at room temperature, which displays a red emission. The mechanisms of detecting ciprofloxacin and chloramphenicol were confirmed to be the inner filter effect (IFE) and photoinduced electron transfer (PET). Under the optimized experimental conditions, the detection limits of the developed method for ciprofloxacin and chloramphenicol detection were 0.0136 and 3.16 μM, respectively. Moreover, the sensor was effectively applied for quantitative determination of ciprofloxacin and chloramphenicol milk samples with satisfactory recoveries of 94.5-102% and 97-110%, respectively. This work developed a new method for rapid detection of ciprofloxacin and chloramphenicol residues. In addition, the established method has potential practical application value for on-site safety regulation on antibiotic residues in animal-derived food.
Audience	Academic
Author	Fu, Long Zhou, Zijun Yue, Xiaoyue Wu, Chaoyun Bai, Yanhong
AuthorAffiliation	1 College of Food and Bioengineering, Zhengzhou University of Light Industry, Zhengzhou 450001, China 2 Henan Institute of Product Quality Supervision and Inspection, Zhengzhou 450047, China 3 Henan Key Laboratory of Cold Chain Food Quality and Safety Control, Zhengzhou 450001, China
AuthorAffiliation_xml	– name: 3 Henan Key Laboratory of Cold Chain Food Quality and Safety Control, Zhengzhou 450001, China – name: 2 Henan Institute of Product Quality Supervision and Inspection, Zhengzhou 450047, China – name: 1 College of Food and Bioengineering, Zhengzhou University of Light Industry, Zhengzhou 450001, China
Author_xml	– sequence: 1 givenname: Xiaoyue surname: Yue fullname: Yue, Xiaoyue – sequence: 2 givenname: Chaoyun surname: Wu fullname: Wu, Chaoyun – sequence: 3 givenname: Zijun surname: Zhou fullname: Zhou, Zijun – sequence: 4 givenname: Long surname: Fu fullname: Fu, Long – sequence: 5 givenname: Yanhong surname: Bai fullname: Bai, Yanhong
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Snippet	Rapid, facile, and accurate detection of antibiotic residues is vital for practical applications. Herein, we designed a sensitive, visual, and rapid analytical...
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SubjectTerms	Acids Animal-based foods antibiotic detection Antibiotics Breeding of animals Chemical properties Chloramphenicol Chloromycetin Chromatography Ciprofloxacin Detection limits Electron transfer Europium Fluorescence fluorescent sensing Food science Identification and classification inner filter effect Ligands metal organic framework Metal-organic frameworks Morphology photoinduced electron transfer Quantum dots Residues Room temperature Safety regulations Scientific imaging Sensors
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Title	Fluorescent Sensing of Ciprofloxacin and Chloramphenicol in Milk Samples via Inner Filter Effect and Photoinduced Electron Transfer Based on Nanosized Rod-Shaped Eu-MOF
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